package swarm import "time" // TaskState represents the state of a task. type TaskState string const ( // TaskStateNew NEW TaskStateNew TaskState = "new" // TaskStateAllocated ALLOCATED TaskStateAllocated TaskState = "allocated" // TaskStatePending PENDING TaskStatePending TaskState = "pending" // TaskStateAssigned ASSIGNED TaskStateAssigned TaskState = "assigned" // TaskStateAccepted ACCEPTED TaskStateAccepted TaskState = "accepted" // TaskStatePreparing PREPARING TaskStatePreparing TaskState = "preparing" // TaskStateReady READY TaskStateReady TaskState = "ready" // TaskStateStarting STARTING TaskStateStarting TaskState = "starting" // TaskStateRunning RUNNING TaskStateRunning TaskState = "running" // TaskStateComplete COMPLETE TaskStateComplete TaskState = "complete" // TaskStateShutdown SHUTDOWN TaskStateShutdown TaskState = "shutdown" // TaskStateFailed FAILED TaskStateFailed TaskState = "failed" // TaskStateRejected REJECTED TaskStateRejected TaskState = "rejected" ) // Task represents a task. type Task struct { ID string Meta Annotations Spec TaskSpec `json:",omitempty"` ServiceID string `json:",omitempty"` Slot int `json:",omitempty"` NodeID string `json:",omitempty"` Status TaskStatus `json:",omitempty"` DesiredState TaskState `json:",omitempty"` NetworksAttachments []NetworkAttachment `json:",omitempty"` } // TaskSpec represents the spec of a task. type TaskSpec struct { ContainerSpec ContainerSpec `json:",omitempty"` Resources *ResourceRequirements `json:",omitempty"` RestartPolicy *RestartPolicy `json:",omitempty"` Placement *Placement `json:",omitempty"` Networks []NetworkAttachmentConfig `json:",omitempty"` // LogDriver specifies the LogDriver to use for tasks created from this // spec. If not present, the one on cluster default on swarm.Spec will be // used, finally falling back to the engine default if not specified. LogDriver *Driver `json:",omitempty"` // ForceUpdate is a counter that triggers an update even if no relevant // parameters have been changed. ForceUpdate uint64 } // Resources represents resources (CPU/Memory). type Resources struct { NanoCPUs int64 `json:",omitempty"` MemoryBytes int64 `json:",omitempty"` } // ResourceRequirements represents resources requirements. type ResourceRequirements struct { Limits *Resources `json:",omitempty"` Reservations *Resources `json:",omitempty"` } // Placement represents orchestration parameters. type Placement struct { Constraints []string `json:",omitempty"` } // RestartPolicy represents the restart policy. type RestartPolicy struct { Condition RestartPolicyCondition `json:",omitempty"` Delay *time.Duration `json:",omitempty"` MaxAttempts *uint64 `json:",omitempty"` Window *time.Duration `json:",omitempty"` } // RestartPolicyCondition represents when to restart. type RestartPolicyCondition string const ( // RestartPolicyConditionNone NONE RestartPolicyConditionNone RestartPolicyCondition = "none" // RestartPolicyConditionOnFailure ON_FAILURE RestartPolicyConditionOnFailure RestartPolicyCondition = "on-failure" // RestartPolicyConditionAny ANY RestartPolicyConditionAny RestartPolicyCondition = "any" ) // TaskStatus represents the status of a task. type TaskStatus struct { Timestamp time.Time `json:",omitempty"` State TaskState `json:",omitempty"` Message string `json:",omitempty"` Err string `json:",omitempty"` ContainerStatus ContainerStatus `json:",omitempty"` PortStatus PortStatus `json:",omitempty"` } // ContainerStatus represents the status of a container. type ContainerStatus struct { ContainerID string `json:",omitempty"` PID int `json:",omitempty"` ExitCode int `json:",omitempty"` } // PortStatus represents the port status of a task's host ports whose // service has published host ports type PortStatus struct { Ports []PortConfig `json:",omitempty"` }